mbed-os
Fork of mbed-os by
tools/build_api.py
- Committer:
- xuaner
- Date:
- 2017-07-20
- Revision:
- 1:3deb71413561
- Parent:
- 0:f269e3021894
File content as of revision 1:3deb71413561:
""" mbed SDK Copyright (c) 2011-2016 ARM Limited Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. """ import re import tempfile from types import ListType from shutil import rmtree from os.path import join, exists, dirname, basename, abspath, normpath from os import linesep, remove from time import time from tools.utils import mkdir, run_cmd, run_cmd_ext, NotSupportedException,\ ToolException, InvalidReleaseTargetException from tools.paths import MBED_CMSIS_PATH, MBED_TARGETS_PATH, MBED_LIBRARIES,\ MBED_HEADER, MBED_DRIVERS, MBED_PLATFORM, MBED_HAL, MBED_CONFIG_FILE,\ MBED_LIBRARIES_DRIVERS, MBED_LIBRARIES_PLATFORM, MBED_LIBRARIES_HAL,\ BUILD_DIR from tools.targets import TARGET_NAMES, TARGET_MAP from tools.libraries import Library from tools.toolchains import TOOLCHAIN_CLASSES from jinja2 import FileSystemLoader from jinja2.environment import Environment from tools.config import Config RELEASE_VERSIONS = ['2', '5'] def prep_report(report, target_name, toolchain_name, id_name): """Setup report keys Positional arguments: report - the report to fill target_name - the target being used toolchain_name - the toolchain being used id_name - the name of the executable or library being built """ if not target_name in report: report[target_name] = {} if not toolchain_name in report[target_name]: report[target_name][toolchain_name] = {} if not id_name in report[target_name][toolchain_name]: report[target_name][toolchain_name][id_name] = [] def prep_properties(properties, target_name, toolchain_name, vendor_label): """Setup test properties Positional arguments: properties - the dict to fill target_name - the target the test is targeting toolchain_name - the toolchain that will compile the test vendor_label - the vendor """ if not target_name in properties: properties[target_name] = {} if not toolchain_name in properties[target_name]: properties[target_name][toolchain_name] = {} properties[target_name][toolchain_name]["target"] = target_name properties[target_name][toolchain_name]["vendor"] = vendor_label properties[target_name][toolchain_name]["toolchain"] = toolchain_name def create_result(target_name, toolchain_name, id_name, description): """Create a result dictionary Positional arguments: target_name - the target being built for toolchain_name - the toolchain doing the building id_name - the name of the executable or library being built description - a human readable description of what's going on """ cur_result = {} cur_result["target_name"] = target_name cur_result["toolchain_name"] = toolchain_name cur_result["id"] = id_name cur_result["description"] = description cur_result["elapsed_time"] = 0 cur_result["output"] = "" return cur_result def add_result_to_report(report, result): """Add a single result to a report dictionary Positional arguments: report - the report to append to result - the result to append """ target = result["target_name"] toolchain = result["toolchain_name"] id_name = result['id'] result_wrap = {0: result} report[target][toolchain][id_name].append(result_wrap) def get_config(src_paths, target, toolchain_name): """Get the configuration object for a target-toolchain combination Positional arguments: src_paths - paths to scan for the configuration files target - the device we are building for toolchain_name - the string that identifies the build tools """ # Convert src_paths to a list if needed if type(src_paths) != ListType: src_paths = [src_paths] # Pass all params to the unified prepare_resources() toolchain = prepare_toolchain(src_paths, target, toolchain_name) # Scan src_path for config files resources = toolchain.scan_resources(src_paths[0]) for path in src_paths[1:]: resources.add(toolchain.scan_resources(path)) # Update configuration files until added features creates no changes prev_features = set() while True: # Update the configuration with any .json files found while scanning toolchain.config.add_config_files(resources.json_files) # Add features while we find new ones features = toolchain.config.get_features() if features == prev_features: break for feature in features: if feature in resources.features: resources += resources.features[feature] prev_features = features toolchain.config.validate_config() cfg, macros = toolchain.config.get_config_data() features = toolchain.config.get_features() return cfg, macros, features def is_official_target(target_name, version): """ Returns True, None if a target is part of the official release for the given version. Return False, 'reason' if a target is not part of the official release for the given version. Positional arguments: target_name - Name if the target (ex. 'K64F') version - The release version string. Should be a string contained within RELEASE_VERSIONS """ result = True reason = None target = TARGET_MAP[target_name] if hasattr(target, 'release_versions') \ and version in target.release_versions: if version == '2': # For version 2, either ARM or uARM toolchain support is required required_toolchains = set(['ARM', 'uARM']) if not len(required_toolchains.intersection( set(target.supported_toolchains))) > 0: result = False reason = ("Target '%s' must support " % target.name) + \ ("one of the folowing toolchains to be included in the") + \ ((" mbed 2.0 official release: %s" + linesep) % ", ".join(required_toolchains)) + \ ("Currently it is only configured to support the ") + \ ("following toolchains: %s" % ", ".join(target.supported_toolchains)) elif version == '5': # For version 5, ARM, GCC_ARM, and IAR toolchain support is required required_toolchains = set(['ARM', 'GCC_ARM', 'IAR']) required_toolchains_sorted = list(required_toolchains) required_toolchains_sorted.sort() supported_toolchains = set(target.supported_toolchains) supported_toolchains_sorted = list(supported_toolchains) supported_toolchains_sorted.sort() if not required_toolchains.issubset(supported_toolchains): result = False reason = ("Target '%s' must support " % target.name) + \ ("ALL of the folowing toolchains to be included in the") + \ ((" mbed OS 5.0 official release: %s" + linesep) % ", ".join(required_toolchains_sorted)) + \ ("Currently it is only configured to support the ") + \ ("following toolchains: %s" % ", ".join(supported_toolchains_sorted)) elif not target.default_lib == 'std': result = False reason = ("Target '%s' must set the " % target.name) + \ ("'default_lib' to 'std' to be included in the ") + \ ("mbed OS 5.0 official release." + linesep) + \ ("Currently it is set to '%s'" % target.default_lib) else: result = False reason = ("Target '%s' has set an invalid release version of '%s'" % version) + \ ("Please choose from the following release versions: %s" % ', '.join(RELEASE_VERSIONS)) else: result = False if not hasattr(target, 'release_versions'): reason = "Target '%s' " % target.name reason += "does not have the 'release_versions' key set" elif not version in target.release_versions: reason = "Target '%s' does not contain the version '%s' " % \ (target.name, version) reason += "in its 'release_versions' key" return result, reason def transform_release_toolchains(toolchains, version): """ Given a list of toolchains and a release version, return a list of only the supported toolchains for that release Positional arguments: toolchains - The list of toolchains version - The release version string. Should be a string contained within RELEASE_VERSIONS """ if version == '5': return ['ARM', 'GCC_ARM', 'IAR'] else: return toolchains def get_mbed_official_release(version): """ Given a release version string, return a tuple that contains a target and the supported toolchains for that release. Ex. Given '2', return (('LPC1768', ('ARM', 'GCC_ARM')), ('K64F', ('ARM', 'GCC_ARM')), ...) Positional arguments: version - The version string. Should be a string contained within RELEASE_VERSIONS """ mbed_official_release = ( tuple( tuple( [ TARGET_MAP[target].name, tuple(transform_release_toolchains( TARGET_MAP[target].supported_toolchains, version)) ] ) for target in TARGET_NAMES \ if (hasattr(TARGET_MAP[target], 'release_versions') and version in TARGET_MAP[target].release_versions) ) ) for target in mbed_official_release: is_official, reason = is_official_target(target[0], version) if not is_official: raise InvalidReleaseTargetException(reason) return mbed_official_release def prepare_toolchain(src_paths, target, toolchain_name, macros=None, clean=False, jobs=1, notify=None, silent=False, verbose=False, extra_verbose=False, config=None, app_config=None, build_profile=None): """ Prepares resource related objects - toolchain, target, config Positional arguments: src_paths - the paths to source directories target - ['LPC1768', 'LPC11U24', 'LPC2368', etc.] toolchain_name - ['ARM', 'uARM', 'GCC_ARM', 'GCC_CR'] Keyword arguments: macros - additional macros clean - Rebuild everything if True jobs - how many compilers we can run at once notify - Notify function for logs silent - suppress printing of progress indicators verbose - Write the actual tools command lines used if True extra_verbose - even more output! config - a Config object to use instead of creating one app_config - location of a chosen mbed_app.json file build_profile - a dict of flags that will be passed to the compiler """ # We need to remove all paths which are repeated to avoid # multiple compilations and linking with the same objects src_paths = [src_paths[0]] + list(set(src_paths[1:])) # If the configuration object was not yet created, create it now config = config or Config(target, src_paths, app_config=app_config) target = config.target # Toolchain instance try: toolchain = TOOLCHAIN_CLASSES[toolchain_name]( target, notify, macros, silent, extra_verbose=extra_verbose, build_profile=build_profile) except KeyError: raise KeyError("Toolchain %s not supported" % toolchain_name) toolchain.config = config toolchain.jobs = jobs toolchain.build_all = clean toolchain.VERBOSE = verbose return toolchain def scan_resources(src_paths, toolchain, dependencies_paths=None, inc_dirs=None, base_path=None): """ Scan resources using initialized toolcain Positional arguments src_paths - the paths to source directories toolchain - valid toolchain object dependencies_paths - dependency paths that we should scan for include dirs inc_dirs - additional include directories which should be added to the scanner resources """ # Scan src_path resources = toolchain.scan_resources(src_paths[0], base_path=base_path) for path in src_paths[1:]: resources.add(toolchain.scan_resources(path, base_path=base_path)) # Scan dependency paths for include dirs if dependencies_paths is not None: for path in dependencies_paths: lib_resources = toolchain.scan_resources(path) resources.inc_dirs.extend(lib_resources.inc_dirs) # Add additional include directories if passed if inc_dirs: if type(inc_dirs) == ListType: resources.inc_dirs.extend(inc_dirs) else: resources.inc_dirs.append(inc_dirs) # Load resources into the config system which might expand/modify resources # based on config data resources = toolchain.config.load_resources(resources) # Set the toolchain's configuration data toolchain.set_config_data(toolchain.config.get_config_data()) return resources def build_project(src_paths, build_path, target, toolchain_name, libraries_paths=None, linker_script=None, clean=False, notify=None, verbose=False, name=None, macros=None, inc_dirs=None, jobs=1, silent=False, report=None, properties=None, project_id=None, project_description=None, extra_verbose=False, config=None, app_config=None, build_profile=None): """ Build a project. A project may be a test or a user program. Positional arguments: src_paths - a path or list of paths that contain all files needed to build the project build_path - the directory where all of the object files will be placed target - the MCU or board that the project will compile for toolchain_name - the name of the build tools Keyword arguments: libraries_paths - The location of libraries to include when linking linker_script - the file that drives the linker to do it's job clean - Rebuild everything if True notify - Notify function for logs verbose - Write the actual tools command lines used if True name - the name of the project macros - additional macros inc_dirs - additional directories where include files may be found jobs - how many compilers we can run at once silent - suppress printing of progress indicators report - a dict where a result may be appended properties - UUUUHHHHH beats me project_id - the name put in the report project_description - the human-readable version of what this thing does extra_verbose - even more output! config - a Config object to use instead of creating one app_config - location of a chosen mbed_app.json file build_profile - a dict of flags that will be passed to the compiler """ # Convert src_path to a list if needed if type(src_paths) != ListType: src_paths = [src_paths] # Extend src_paths wiht libraries_paths if libraries_paths is not None: src_paths.extend(libraries_paths) inc_dirs.extend(map(dirname, libraries_paths)) # Build Directory if clean and exists(build_path): rmtree(build_path) mkdir(build_path) # Pass all params to the unified prepare_toolchain() toolchain = prepare_toolchain( src_paths, target, toolchain_name, macros=macros, clean=clean, jobs=jobs, notify=notify, silent=silent, verbose=verbose, extra_verbose=extra_verbose, config=config, app_config=app_config, build_profile=build_profile) # The first path will give the name to the library if name is None: name = basename(normpath(abspath(src_paths[0]))) toolchain.info("Building project %s (%s, %s)" % (name, toolchain.target.name, toolchain_name)) # Initialize reporting if report != None: start = time() # If project_id is specified, use that over the default name id_name = project_id.upper() if project_id else name.upper() description = project_description if project_description else name vendor_label = toolchain.target.extra_labels[0] prep_report(report, toolchain.target.name, toolchain_name, id_name) cur_result = create_result(toolchain.target.name, toolchain_name, id_name, description) if properties != None: prep_properties(properties, toolchain.target.name, toolchain_name, vendor_label) try: # Call unified scan_resources resources = scan_resources(src_paths, toolchain, inc_dirs=inc_dirs) # Change linker script if specified if linker_script is not None: resources.linker_script = linker_script # Compile Sources objects = toolchain.compile_sources(resources, build_path, resources.inc_dirs) resources.objects.extend(objects) # Link Program res, _ = toolchain.link_program(resources, build_path, name) memap_instance = getattr(toolchain, 'memap_instance', None) memap_table = '' if memap_instance: # Write output to stdout in text (pretty table) format memap_table = memap_instance.generate_output('table') if not silent: print memap_table # Write output to file in JSON format map_out = join(build_path, name + "_map.json") memap_instance.generate_output('json', map_out) # Write output to file in CSV format for the CI map_csv = join(build_path, name + "_map.csv") memap_instance.generate_output('csv-ci', map_csv) resources.detect_duplicates(toolchain) if report != None: end = time() cur_result["elapsed_time"] = end - start cur_result["output"] = toolchain.get_output() + memap_table cur_result["result"] = "OK" cur_result["memory_usage"] = toolchain.map_outputs add_result_to_report(report, cur_result) return res except Exception as exc: if report != None: end = time() if isinstance(exc, NotSupportedException): cur_result["result"] = "NOT_SUPPORTED" else: cur_result["result"] = "FAIL" cur_result["elapsed_time"] = end - start toolchain_output = toolchain.get_output() if toolchain_output: cur_result["output"] += toolchain_output add_result_to_report(report, cur_result) # Let Exception propagate raise def build_library(src_paths, build_path, target, toolchain_name, dependencies_paths=None, name=None, clean=False, archive=True, notify=None, verbose=False, macros=None, inc_dirs=None, jobs=1, silent=False, report=None, properties=None, extra_verbose=False, project_id=None, remove_config_header_file=False, app_config=None, build_profile=None): """ Build a library Positional arguments: src_paths - a path or list of paths that contain all files needed to build the library build_path - the directory where all of the object files will be placed target - the MCU or board that the project will compile for toolchain_name - the name of the build tools Keyword arguments: dependencies_paths - The location of libraries to include when linking name - the name of the library clean - Rebuild everything if True archive - whether the library will create an archive file notify - Notify function for logs verbose - Write the actual tools command lines used if True macros - additional macros inc_dirs - additional directories where include files may be found jobs - how many compilers we can run at once silent - suppress printing of progress indicators report - a dict where a result may be appended properties - UUUUHHHHH beats me extra_verbose - even more output! project_id - the name that goes in the report remove_config_header_file - delete config header file when done building app_config - location of a chosen mbed_app.json file build_profile - a dict of flags that will be passed to the compiler """ # Convert src_path to a list if needed if type(src_paths) != ListType: src_paths = [src_paths] # Build path if archive: # Use temp path when building archive tmp_path = join(build_path, '.temp') mkdir(tmp_path) else: tmp_path = build_path # Clean the build directory if clean and exists(tmp_path): rmtree(tmp_path) mkdir(tmp_path) # Pass all params to the unified prepare_toolchain() toolchain = prepare_toolchain( src_paths, target, toolchain_name, macros=macros, clean=clean, jobs=jobs, notify=notify, silent=silent, verbose=verbose, extra_verbose=extra_verbose, app_config=app_config, build_profile=build_profile) # The first path will give the name to the library if name is None: name = basename(normpath(abspath(src_paths[0]))) toolchain.info("Building library %s (%s, %s)" % (name, toolchain.target.name, toolchain_name)) # Initialize reporting if report != None: start = time() # If project_id is specified, use that over the default name id_name = project_id.upper() if project_id else name.upper() description = name vendor_label = toolchain.target.extra_labels[0] prep_report(report, toolchain.target.name, toolchain_name, id_name) cur_result = create_result(toolchain.target.name, toolchain_name, id_name, description) if properties != None: prep_properties(properties, toolchain.target.name, toolchain_name, vendor_label) for src_path in src_paths: if not exists(src_path): error_msg = "The library source folder does not exist: %s", src_path if report != None: cur_result["output"] = error_msg cur_result["result"] = "FAIL" add_result_to_report(report, cur_result) raise Exception(error_msg) try: # Call unified scan_resources resources = scan_resources(src_paths, toolchain, dependencies_paths=dependencies_paths, inc_dirs=inc_dirs) # Copy headers, objects and static libraries - all files needed for # static lib toolchain.copy_files(resources.headers, build_path, resources=resources) toolchain.copy_files(resources.objects, build_path, resources=resources) toolchain.copy_files(resources.libraries, build_path, resources=resources) toolchain.copy_files(resources.json_files, build_path, resources=resources) if resources.linker_script: toolchain.copy_files(resources.linker_script, build_path, resources=resources) if resources.hex_files: toolchain.copy_files(resources.hex_files, build_path, resources=resources) # Compile Sources objects = toolchain.compile_sources(resources, abspath(tmp_path), resources.inc_dirs) resources.objects.extend(objects) if archive: toolchain.build_library(objects, build_path, name) if remove_config_header_file: config_header_path = toolchain.get_config_header() if config_header_path: remove(config_header_path) if report != None: end = time() cur_result["elapsed_time"] = end - start cur_result["output"] = toolchain.get_output() cur_result["result"] = "OK" add_result_to_report(report, cur_result) return True except Exception as exc: if report != None: end = time() if isinstance(exc, ToolException): cur_result["result"] = "FAIL" elif isinstance(exc, NotSupportedException): cur_result["result"] = "NOT_SUPPORTED" cur_result["elapsed_time"] = end - start toolchain_output = toolchain.get_output() if toolchain_output: cur_result["output"] += toolchain_output add_result_to_report(report, cur_result) # Let Exception propagate raise ###################### ### Legacy methods ### ###################### def build_lib(lib_id, target, toolchain_name, verbose=False, clean=False, macros=None, notify=None, jobs=1, silent=False, report=None, properties=None, extra_verbose=False, build_profile=None): """ Legacy method for building mbed libraries Positional arguments: lib_id - the library's unique identifier target - the MCU or board that the project will compile for toolchain_name - the name of the build tools Keyword arguments: clean - Rebuild everything if True verbose - Write the actual tools command lines used if True macros - additional macros notify - Notify function for logs jobs - how many compilers we can run at once silent - suppress printing of progress indicators report - a dict where a result may be appended properties - UUUUHHHHH beats me extra_verbose - even more output! build_profile - a dict of flags that will be passed to the compiler """ lib = Library(lib_id) if not lib.is_supported(target, toolchain_name): print('Library "%s" is not yet supported on target %s with toolchain %s' % (lib_id, target.name, toolchain_name)) return False # We need to combine macros from parameter list with macros from library # definition lib_macros = lib.macros if lib.macros else [] if macros: macros.extend(lib_macros) else: macros = lib_macros src_paths = lib.source_dir build_path = lib.build_dir dependencies_paths = lib.dependencies inc_dirs = lib.inc_dirs inc_dirs_ext = lib.inc_dirs_ext if type(src_paths) != ListType: src_paths = [src_paths] # The first path will give the name to the library name = basename(src_paths[0]) if report != None: start = time() id_name = name.upper() description = name vendor_label = target.extra_labels[0] cur_result = None prep_report(report, target.name, toolchain_name, id_name) cur_result = create_result(target.name, toolchain_name, id_name, description) if properties != None: prep_properties(properties, target.name, toolchain_name, vendor_label) for src_path in src_paths: if not exists(src_path): error_msg = "The library source folder does not exist: %s", src_path if report != None: cur_result["output"] = error_msg cur_result["result"] = "FAIL" add_result_to_report(report, cur_result) raise Exception(error_msg) try: # Toolchain instance toolchain = TOOLCHAIN_CLASSES[toolchain_name]( target, macros=macros, notify=notify, silent=silent, extra_verbose=extra_verbose, build_profile=build_profile) toolchain.VERBOSE = verbose toolchain.jobs = jobs toolchain.build_all = clean toolchain.info("Building library %s (%s, %s)" % (name.upper(), target.name, toolchain_name)) # Take into account the library configuration (MBED_CONFIG_FILE) config = Config(target) toolchain.config = config config.add_config_files([MBED_CONFIG_FILE]) # Scan Resources resources = [] for src_path in src_paths: resources.append(toolchain.scan_resources(src_path)) # Add extra include directories / files which are required by library # This files usually are not in the same directory as source files so # previous scan will not include them if inc_dirs_ext is not None: for inc_ext in inc_dirs_ext: resources.append(toolchain.scan_resources(inc_ext)) # Dependencies Include Paths dependencies_include_dir = [] if dependencies_paths is not None: for path in dependencies_paths: lib_resources = toolchain.scan_resources(path) dependencies_include_dir.extend(lib_resources.inc_dirs) dependencies_include_dir.extend(map(dirname, lib_resources.inc_dirs)) if inc_dirs: dependencies_include_dir.extend(inc_dirs) # Add other discovered configuration data to the configuration object for res in resources: config.load_resources(res) toolchain.set_config_data(toolchain.config.get_config_data()) # Create the desired build directory structure bin_path = join(build_path, toolchain.obj_path) mkdir(bin_path) tmp_path = join(build_path, '.temp', toolchain.obj_path) mkdir(tmp_path) # Copy Headers for resource in resources: toolchain.copy_files(resource.headers, build_path, resources=resource) dependencies_include_dir.extend( toolchain.scan_resources(build_path).inc_dirs) # Compile Sources objects = [] for resource in resources: objects.extend(toolchain.compile_sources(resource, tmp_path, dependencies_include_dir)) needed_update = toolchain.build_library(objects, bin_path, name) if report != None and needed_update: end = time() cur_result["elapsed_time"] = end - start cur_result["output"] = toolchain.get_output() cur_result["result"] = "OK" add_result_to_report(report, cur_result) return True except Exception: if report != None: end = time() cur_result["result"] = "FAIL" cur_result["elapsed_time"] = end - start toolchain_output = toolchain.get_output() if toolchain_output: cur_result["output"] += toolchain_output add_result_to_report(report, cur_result) # Let Exception propagate raise # We do have unique legacy conventions about how we build and package the mbed # library def build_mbed_libs(target, toolchain_name, verbose=False, clean=False, macros=None, notify=None, jobs=1, silent=False, report=None, properties=None, extra_verbose=False, build_profile=None): """ Function returns True is library was built and false if building was skipped Positional arguments: target - the MCU or board that the project will compile for toolchain_name - the name of the build tools Keyword arguments: verbose - Write the actual tools command lines used if True clean - Rebuild everything if True macros - additional macros notify - Notify function for logs jobs - how many compilers we can run at once silent - suppress printing of progress indicators report - a dict where a result may be appended properties - UUUUHHHHH beats me extra_verbose - even more output! build_profile - a dict of flags that will be passed to the compiler """ if report != None: start = time() id_name = "MBED" description = "mbed SDK" vendor_label = target.extra_labels[0] cur_result = None prep_report(report, target.name, toolchain_name, id_name) cur_result = create_result(target.name, toolchain_name, id_name, description) if properties != None: prep_properties(properties, target.name, toolchain_name, vendor_label) # Check toolchain support if toolchain_name not in target.supported_toolchains: supported_toolchains_text = ", ".join(target.supported_toolchains) print('%s target is not yet supported by toolchain %s' % (target.name, toolchain_name)) print('%s target supports %s toolchain%s' % (target.name, supported_toolchains_text, 's' if len(target.supported_toolchains) > 1 else '')) if report != None: cur_result["result"] = "SKIP" add_result_to_report(report, cur_result) return False try: # Toolchain toolchain = TOOLCHAIN_CLASSES[toolchain_name]( target, macros=macros, notify=notify, silent=silent, extra_verbose=extra_verbose, build_profile=build_profile) toolchain.VERBOSE = verbose toolchain.jobs = jobs toolchain.build_all = clean # Take into account the library configuration (MBED_CONFIG_FILE) config = Config(target) toolchain.config = config config.add_config_files([MBED_CONFIG_FILE]) toolchain.set_config_data(toolchain.config.get_config_data()) # Source and Build Paths build_target = join(MBED_LIBRARIES, "TARGET_" + target.name) build_toolchain = join(build_target, "TOOLCHAIN_" + toolchain.name) mkdir(build_toolchain) tmp_path = join(MBED_LIBRARIES, '.temp', toolchain.obj_path) mkdir(tmp_path) # CMSIS toolchain.info("Building library %s (%s, %s)" % ('CMSIS', target.name, toolchain_name)) cmsis_src = MBED_CMSIS_PATH resources = toolchain.scan_resources(cmsis_src) toolchain.copy_files(resources.headers, build_target) toolchain.copy_files(resources.linker_script, build_toolchain) toolchain.copy_files(resources.bin_files, build_toolchain) objects = toolchain.compile_sources(resources, tmp_path) toolchain.copy_files(objects, build_toolchain) # mbed toolchain.info("Building library %s (%s, %s)" % ('MBED', target.name, toolchain_name)) # Common Headers toolchain.copy_files([MBED_HEADER], MBED_LIBRARIES) library_incdirs = [dirname(MBED_LIBRARIES), MBED_LIBRARIES] for dir, dest in [(MBED_DRIVERS, MBED_LIBRARIES_DRIVERS), (MBED_PLATFORM, MBED_LIBRARIES_PLATFORM), (MBED_HAL, MBED_LIBRARIES_HAL)]: resources = toolchain.scan_resources(dir) toolchain.copy_files(resources.headers, dest) library_incdirs.append(dest) # Target specific sources hal_src = MBED_TARGETS_PATH hal_implementation = toolchain.scan_resources(hal_src) toolchain.copy_files(hal_implementation.headers + hal_implementation.hex_files + hal_implementation.libraries + [MBED_CONFIG_FILE], build_target, resources=hal_implementation) toolchain.copy_files(hal_implementation.linker_script, build_toolchain) toolchain.copy_files(hal_implementation.bin_files, build_toolchain) incdirs = toolchain.scan_resources(build_target).inc_dirs objects = toolchain.compile_sources(hal_implementation, tmp_path, library_incdirs + incdirs) toolchain.copy_files(objects, build_toolchain) # Common Sources mbed_resources = None for dir in [MBED_DRIVERS, MBED_PLATFORM, MBED_HAL]: mbed_resources += toolchain.scan_resources(dir) objects = toolchain.compile_sources(mbed_resources, tmp_path, library_incdirs + incdirs) # A number of compiled files need to be copied as objects as opposed to # way the linker search for symbols in archives. These are: # - retarget.o: to make sure that the C standard lib symbols get # overridden # - board.o: mbed_die is weak # - mbed_overrides.o: this contains platform overrides of various # weak SDK functions separate_names, separate_objects = ['retarget.o', 'board.o', 'mbed_overrides.o'], [] for obj in objects: for name in separate_names: if obj.endswith(name): separate_objects.append(obj) for obj in separate_objects: objects.remove(obj) toolchain.build_library(objects, build_toolchain, "mbed") for obj in separate_objects: toolchain.copy_files(obj, build_toolchain) if report != None: end = time() cur_result["elapsed_time"] = end - start cur_result["output"] = toolchain.get_output() cur_result["result"] = "OK" add_result_to_report(report, cur_result) return True except Exception as exc: if report != None: end = time() cur_result["result"] = "FAIL" cur_result["elapsed_time"] = end - start toolchain_output = toolchain.get_output() if toolchain_output: cur_result["output"] += toolchain_output cur_result["output"] += str(exc) add_result_to_report(report, cur_result) # Let Exception propagate raise def get_unique_supported_toolchains(release_targets=None): """ Get list of all unique toolchains supported by targets Keyword arguments: release_targets - tuple structure returned from get_mbed_official_release(). If release_targets is not specified, then it queries all known targets """ unique_supported_toolchains = [] if not release_targets: for target in TARGET_NAMES: for toolchain in TARGET_MAP[target].supported_toolchains: if toolchain not in unique_supported_toolchains: unique_supported_toolchains.append(toolchain) else: for target in release_targets: for toolchain in target[1]: if toolchain not in unique_supported_toolchains: unique_supported_toolchains.append(toolchain) return unique_supported_toolchains def mcu_toolchain_matrix(verbose_html=False, platform_filter=None, release_version='5'): """ Shows target map using prettytable Keyword arguments: verbose_html - emit html instead of a simple table platform_filter - remove results that match the string release_version - get the matrix for this major version number """ # Only use it in this function so building works without extra modules from prettytable import PrettyTable if isinstance(release_version, basestring): # Force release_version to lowercase if it is a string release_version = release_version.lower() else: # Otherwise default to printing all known targets and toolchains release_version = 'all' version_release_targets = {} version_release_target_names = {} for version in RELEASE_VERSIONS: version_release_targets[version] = get_mbed_official_release(version) version_release_target_names[version] = [x[0] for x in version_release_targets[ version]] if release_version in RELEASE_VERSIONS: release_targets = version_release_targets[release_version] else: release_targets = None unique_supported_toolchains = get_unique_supported_toolchains( release_targets) prepend_columns = ["Target"] + ["mbed OS %s" % x for x in RELEASE_VERSIONS] # All tests status table print columns = prepend_columns + unique_supported_toolchains table_printer = PrettyTable(columns) # Align table for col in columns: table_printer.align[col] = "c" table_printer.align["Target"] = "l" perm_counter = 0 target_counter = 0 target_names = [] if release_targets: target_names = [x[0] for x in release_targets] else: target_names = TARGET_NAMES for target in sorted(target_names): if platform_filter is not None: # FIlter out platforms using regex if re.search(platform_filter, target) is None: continue target_counter += 1 row = [target] # First column is platform name for version in RELEASE_VERSIONS: if target in version_release_target_names[version]: text = "Supported" else: text = "-" row.append(text) for unique_toolchain in unique_supported_toolchains: if unique_toolchain in TARGET_MAP[target].supported_toolchains: text = "Supported" perm_counter += 1 else: text = "-" row.append(text) table_printer.add_row(row) result = table_printer.get_html_string() if verbose_html \ else table_printer.get_string() result += "\n" result += "Supported targets: %d\n"% (target_counter) if target_counter == 1: result += "Supported toolchains: %d"% (perm_counter) return result def get_target_supported_toolchains(target): """ Returns target supported toolchains list Positional arguments: target - the target to get the supported toolchains of """ return TARGET_MAP[target].supported_toolchains if target in TARGET_MAP \ else None def static_analysis_scan(target, toolchain_name, cppcheck_cmd, cppcheck_msg_format, verbose=False, clean=False, macros=None, notify=None, jobs=1, extra_verbose=False, build_profile=None): """Perform static analysis on a target and toolchain combination Positional arguments: target - the target to fake the build for toolchain_name - pretend you would compile with this toolchain cppcheck_cmd - the command used to do static analysis cppcheck_msg_format - the format of the check messages Keyword arguments: verbose - more printing! clean - start from a clean slate macros - extra macros to compile with notify - the notification event handling function jobs - number of commands to run at once extra_verbose - even moar printing build_profile - a dict of flags that will be passed to the compiler """ # Toolchain toolchain = TOOLCHAIN_CLASSES[toolchain_name](target, macros=macros, notify=notify, extra_verbose=extra_verbose, build_profile=build_profile) toolchain.VERBOSE = verbose toolchain.jobs = jobs toolchain.build_all = clean # Source and Build Paths build_target = join(MBED_LIBRARIES, "TARGET_" + target.name) build_toolchain = join(build_target, "TOOLCHAIN_" + toolchain.name) mkdir(build_toolchain) tmp_path = join(MBED_LIBRARIES, '.temp', toolchain.obj_path) mkdir(tmp_path) # CMSIS toolchain.info("Static analysis for %s (%s, %s)" % ('CMSIS', target.name, toolchain_name)) cmsis_src = MBED_CMSIS_PATH resources = toolchain.scan_resources(cmsis_src) # Copy files before analysis toolchain.copy_files(resources.headers, build_target) toolchain.copy_files(resources.linker_script, build_toolchain) # Gather include paths, c, cpp sources and macros to transfer to cppcheck # command line includes = ["-I%s"% i for i in resources.inc_dirs] includes.append("-I%s"% str(build_target)) c_sources = " ".join(resources.c_sources) cpp_sources = " ".join(resources.cpp_sources) macros = ["-D%s"% s for s in toolchain.get_symbols() + toolchain.macros] includes = [inc.strip() for inc in includes] macros = [mac.strip() for mac in macros] check_cmd = cppcheck_cmd check_cmd += cppcheck_msg_format check_cmd += includes check_cmd += macros # We need to pass some params via file to avoid "command line too long in # some OSs" tmp_file = tempfile.NamedTemporaryFile(delete=False) tmp_file.writelines(line + '\n' for line in c_sources.split()) tmp_file.writelines(line + '\n' for line in cpp_sources.split()) tmp_file.close() check_cmd += ["--file-list=%s"% tmp_file.name] _stdout, _stderr, _ = run_cmd(check_cmd) if verbose: print _stdout print _stderr # ========================================================================= # MBED toolchain.info("Static analysis for %s (%s, %s)" % ('MBED', target.name, toolchain_name)) # Common Headers toolchain.copy_files([MBED_HEADER], MBED_LIBRARIES) toolchain.copy_files(toolchain.scan_resources(MBED_DRIVERS).headers, MBED_LIBRARIES) toolchain.copy_files(toolchain.scan_resources(MBED_PLATFORM).headers, MBED_LIBRARIES) toolchain.copy_files(toolchain.scan_resources(MBED_HAL).headers, MBED_LIBRARIES) # Target specific sources hal_src = join(MBED_TARGETS_PATH, "hal") hal_implementation = toolchain.scan_resources(hal_src) # Copy files before analysis toolchain.copy_files(hal_implementation.headers + hal_implementation.hex_files, build_target, resources=hal_implementation) incdirs = toolchain.scan_resources(build_target) target_includes = ["-I%s" % i for i in incdirs.inc_dirs] target_includes.append("-I%s"% str(build_target)) target_includes.append("-I%s"% str(hal_src)) target_c_sources = " ".join(incdirs.c_sources) target_cpp_sources = " ".join(incdirs.cpp_sources) target_macros = ["-D%s"% s for s in toolchain.get_symbols() + toolchain.macros] # Common Sources mbed_resources = toolchain.scan_resources(MBED_COMMON) # Gather include paths, c, cpp sources and macros to transfer to cppcheck # command line mbed_includes = ["-I%s" % i for i in mbed_resources.inc_dirs] mbed_includes.append("-I%s"% str(build_target)) mbed_includes.append("-I%s"% str(MBED_DRIVERS)) mbed_includes.append("-I%s"% str(MBED_PLATFORM)) mbed_includes.append("-I%s"% str(MBED_HAL)) mbed_c_sources = " ".join(mbed_resources.c_sources) mbed_cpp_sources = " ".join(mbed_resources.cpp_sources) target_includes = [inc.strip() for inc in target_includes] mbed_includes = [inc.strip() for inc in mbed_includes] target_macros = [mac.strip() for mac in target_macros] check_cmd = cppcheck_cmd check_cmd += cppcheck_msg_format check_cmd += target_includes check_cmd += mbed_includes check_cmd += target_macros # We need to pass some parames via file to avoid "command line too long in # some OSs" tmp_file = tempfile.NamedTemporaryFile(delete=False) tmp_file.writelines(line + '\n' for line in target_c_sources.split()) tmp_file.writelines(line + '\n' for line in target_cpp_sources.split()) tmp_file.writelines(line + '\n' for line in mbed_c_sources.split()) tmp_file.writelines(line + '\n' for line in mbed_cpp_sources.split()) tmp_file.close() check_cmd += ["--file-list=%s"% tmp_file.name] _stdout, _stderr, _ = run_cmd_ext(check_cmd) if verbose: print _stdout print _stderr def static_analysis_scan_lib(lib_id, target, toolchain, cppcheck_cmd, cppcheck_msg_format, verbose=False, clean=False, macros=None, notify=None, jobs=1, extra_verbose=False, build_profile=None): """Perform static analysis on a library as if it were to be compiled for a particular target and toolchain combination """ lib = Library(lib_id) if lib.is_supported(target, toolchain): static_analysis_scan_library( lib.source_dir, lib.build_dir, target, toolchain, cppcheck_cmd, cppcheck_msg_format, lib.dependencies, verbose=verbose, clean=clean, macros=macros, notify=notify, jobs=jobs, extra_verbose=extra_verbose, build_profile=build_profile) else: print('Library "%s" is not yet supported on target %s with toolchain %s' % (lib_id, target.name, toolchain)) def static_analysis_scan_library(src_paths, build_path, target, toolchain_name, cppcheck_cmd, cppcheck_msg_format, dependencies_paths=None, name=None, clean=False, notify=None, verbose=False, macros=None, jobs=1, extra_verbose=False, build_profile=None): """ Function scans library for statically detectable defects Positional arguments: src_paths - the list of library paths to scan build_path - the location directory of result files target - the target to fake the build for toolchain_name - pretend you would compile with this toolchain cppcheck_cmd - the command used to do static analysis cppcheck_msg_format - the format of the check messages Keyword arguments: dependencies_paths - the paths to sources that this library depends on name - the name of this library clean - start from a clean slate notify - the notification event handling function verbose - more printing! macros - extra macros to compile with jobs - number of commands to run at once extra_verbose - even moar printing build_profile - a dict of flags that will be passed to the compiler """ if type(src_paths) != ListType: src_paths = [src_paths] for src_path in src_paths: if not exists(src_path): raise Exception("The library source folder does not exist: %s", src_path) # Toolchain instance toolchain = TOOLCHAIN_CLASSES[toolchain_name](target, macros=macros, notify=notify, extra_verbose=extra_verbose, build_profile=build_profile) toolchain.VERBOSE = verbose toolchain.jobs = jobs # The first path will give the name to the library name = basename(src_paths[0]) toolchain.info("Static analysis for library %s (%s, %s)" % (name.upper(), target.name, toolchain_name)) # Scan Resources resources = [] for src_path in src_paths: resources.append(toolchain.scan_resources(src_path)) # Dependencies Include Paths dependencies_include_dir = [] if dependencies_paths is not None: for path in dependencies_paths: lib_resources = toolchain.scan_resources(path) dependencies_include_dir.extend(lib_resources.inc_dirs) # Create the desired build directory structure bin_path = join(build_path, toolchain.obj_path) mkdir(bin_path) tmp_path = join(build_path, '.temp', toolchain.obj_path) mkdir(tmp_path) # Gather include paths, c, cpp sources and macros to transfer to cppcheck # command line includes = ["-I%s" % i for i in dependencies_include_dir + src_paths] c_sources = " " cpp_sources = " " macros = ['-D%s' % s for s in toolchain.get_symbols() + toolchain.macros] # Copy Headers for resource in resources: toolchain.copy_files(resource.headers, build_path, resources=resource) includes += ["-I%s" % i for i in resource.inc_dirs] c_sources += " ".join(resource.c_sources) + " " cpp_sources += " ".join(resource.cpp_sources) + " " dependencies_include_dir.extend( toolchain.scan_resources(build_path).inc_dirs) includes = [inc.strip() for inc in includes] macros = [mac.strip() for mac in macros] check_cmd = cppcheck_cmd check_cmd += cppcheck_msg_format check_cmd += includes check_cmd += macros # We need to pass some parameters via file to avoid "command line too long # in some OSs". A temporary file is created to store e.g. cppcheck list of # files for command line tmp_file = tempfile.NamedTemporaryFile(delete=False) tmp_file.writelines(line + '\n' for line in c_sources.split()) tmp_file.writelines(line + '\n' for line in cpp_sources.split()) tmp_file.close() check_cmd += ["--file-list=%s"% tmp_file.name] # This will allow us to grab result from both stdio and stderr outputs (so # we can show them) We assume static code analysis tool is outputting # defects on STDERR _stdout, _stderr, _ = run_cmd_ext(check_cmd) if verbose: print _stdout print _stderr def print_build_results(result_list, build_name): """ Generate result string for build results Positional arguments: result_list - the list of results to print build_name - the name of the build we are printing result for """ result = "" if len(result_list) > 0: result += build_name + "\n" result += "\n".join([" * %s" % f for f in result_list]) result += "\n" return result def print_build_memory_usage(report): """ Generate result table with memory usage values for build results Aggregates (puts together) reports obtained from self.get_memory_summary() Positional arguments: report - Report generated during build procedure. """ from prettytable import PrettyTable columns_text = ['name', 'target', 'toolchain'] columns_int = ['static_ram', 'stack', 'heap', 'total_ram', 'total_flash'] table = PrettyTable(columns_text + columns_int) for col in columns_text: table.align[col] = 'l' for col in columns_int: table.align[col] = 'r' for target in report: for toolchain in report[target]: for name in report[target][toolchain]: for dlist in report[target][toolchain][name]: for dlistelem in dlist: # Get 'memory_usage' record and build table with # statistics record = dlist[dlistelem] if 'memory_usage' in record and record['memory_usage']: # Note that summary should be in the last record of # 'memory_usage' section. This is why we are # grabbing last "[-1]" record. row = [ record['description'], record['target_name'], record['toolchain_name'], record['memory_usage'][-1]['summary'][ 'static_ram'], record['memory_usage'][-1]['summary']['stack'], record['memory_usage'][-1]['summary']['heap'], record['memory_usage'][-1]['summary'][ 'total_ram'], record['memory_usage'][-1]['summary'][ 'total_flash'], ] table.add_row(row) result = "Memory map breakdown for built projects (values in Bytes):\n" result += table.get_string(sortby='name') return result def write_build_report(build_report, template_filename, filename): """Write a build report to disk using a template file Positional arguments: build_report - a report generated by the build system template_filename - a file that contains the template for the style of build report filename - the location on disk to write the file to """ build_report_failing = [] build_report_passing = [] for report in build_report: if len(report["failing"]) > 0: build_report_failing.append(report) else: build_report_passing.append(report) env = Environment(extensions=['jinja2.ext.with_']) env.loader = FileSystemLoader('ci_templates') template = env.get_template(template_filename) with open(filename, 'w+') as placeholder: placeholder.write(template.render( failing_builds=build_report_failing, passing_builds=build_report_passing))